package v5 import ( "bufio" "bytes" "context" "crypto/tls" "errors" "net" "runtime" "sync" "sync/atomic" "time" atomic2 "github.com/metacubex/mihomo/common/atomic" N "github.com/metacubex/mihomo/common/net" "github.com/metacubex/mihomo/common/pool" C "github.com/metacubex/mihomo/constant" "github.com/metacubex/mihomo/log" "github.com/metacubex/mihomo/transport/tuic/common" "github.com/metacubex/quic-go" "github.com/puzpuzpuz/xsync/v3" "github.com/zhangyunhao116/fastrand" ) type ClientOption struct { TlsConfig *tls.Config QuicConfig *quic.Config Uuid [16]byte Password string UdpRelayMode common.UdpRelayMode CongestionController string ReduceRtt bool MaxUdpRelayPacketSize int MaxOpenStreams int64 CWND int } type clientImpl struct { *ClientOption udp bool quicConn quic.Connection connMutex sync.Mutex openStreams atomic.Int64 closed atomic.Bool udpInputMap xsync.MapOf[uint16, net.Conn] // only ready for PoolClient dialerRef C.Dialer lastVisited atomic2.TypedValue[time.Time] } func (t *clientImpl) OpenStreams() int64 { return t.openStreams.Load() } func (t *clientImpl) DialerRef() C.Dialer { return t.dialerRef } func (t *clientImpl) LastVisited() time.Time { return t.lastVisited.Load() } func (t *clientImpl) SetLastVisited(last time.Time) { t.lastVisited.Store(last) } func (t *clientImpl) getQuicConn(ctx context.Context, dialer C.Dialer, dialFn common.DialFunc) (quic.Connection, error) { t.connMutex.Lock() defer t.connMutex.Unlock() if t.quicConn != nil { return t.quicConn, nil } transport, addr, err := dialFn(ctx, dialer) if err != nil { return nil, err } var quicConn quic.Connection if t.ReduceRtt { quicConn, err = transport.DialEarly(ctx, addr, t.TlsConfig, t.QuicConfig) } else { quicConn, err = transport.Dial(ctx, addr, t.TlsConfig, t.QuicConfig) } if err != nil { return nil, err } common.SetCongestionController(quicConn, t.CongestionController, t.CWND) go func() { _ = t.sendAuthentication(quicConn) }() if t.udp && t.UdpRelayMode == common.QUIC { go func() { _ = t.handleUniStream(quicConn) }() } go func() { _ = t.handleMessage(quicConn) // always handleMessage because tuicV5 using datagram to send the Heartbeat }() t.quicConn = quicConn t.openStreams.Store(0) return quicConn, nil } func (t *clientImpl) sendAuthentication(quicConn quic.Connection) (err error) { defer func() { t.deferQuicConn(quicConn, err) }() stream, err := quicConn.OpenUniStream() if err != nil { return err } buf := pool.GetBuffer() defer pool.PutBuffer(buf) token, err := GenToken(quicConn.ConnectionState(), t.Uuid, t.Password) if err != nil { return err } err = NewAuthenticate(t.Uuid, token).WriteTo(buf) if err != nil { return err } _, err = buf.WriteTo(stream) if err != nil { return err } err = stream.Close() if err != nil { return } return nil } func (t *clientImpl) handleUniStream(quicConn quic.Connection) (err error) { defer func() { t.deferQuicConn(quicConn, err) }() for { var stream quic.ReceiveStream stream, err = quicConn.AcceptUniStream(context.Background()) if err != nil { return err } go func() (err error) { var assocId uint16 defer func() { t.deferQuicConn(quicConn, err) if err != nil && assocId != 0 { if val, ok := t.udpInputMap.LoadAndDelete(assocId); ok { if conn, ok := val.(net.Conn); ok { _ = conn.Close() } } } stream.CancelRead(0) }() reader := bufio.NewReader(stream) commandHead, err := ReadCommandHead(reader) if err != nil { return } switch commandHead.TYPE { case PacketType: var packet Packet packet, err = ReadPacketWithHead(commandHead, reader) if err != nil { return } if t.udp && t.UdpRelayMode == common.QUIC { assocId = packet.ASSOC_ID if val, ok := t.udpInputMap.Load(assocId); ok { if conn, ok := val.(net.Conn); ok { writer := bufio.NewWriterSize(conn, packet.BytesLen()) _ = packet.WriteTo(writer) _ = writer.Flush() } } } } return }() } } func (t *clientImpl) handleMessage(quicConn quic.Connection) (err error) { defer func() { t.deferQuicConn(quicConn, err) }() for { var message []byte message, err = quicConn.ReceiveDatagram(context.Background()) if err != nil { return err } go func() (err error) { var assocId uint16 defer func() { t.deferQuicConn(quicConn, err) if err != nil && assocId != 0 { if val, ok := t.udpInputMap.LoadAndDelete(assocId); ok { if conn, ok := val.(net.Conn); ok { _ = conn.Close() } } } }() reader := bytes.NewBuffer(message) commandHead, err := ReadCommandHead(reader) if err != nil { return } switch commandHead.TYPE { case PacketType: var packet Packet packet, err = ReadPacketWithHead(commandHead, reader) if err != nil { return } if t.udp && t.UdpRelayMode == common.NATIVE { assocId = packet.ASSOC_ID if val, ok := t.udpInputMap.Load(assocId); ok { if conn, ok := val.(net.Conn); ok { _, _ = conn.Write(message) } } } case HeartbeatType: var heartbeat Heartbeat heartbeat, err = ReadHeartbeatWithHead(commandHead, reader) if err != nil { return } heartbeat.BytesLen() } return }() } } func (t *clientImpl) deferQuicConn(quicConn quic.Connection, err error) { var netError net.Error if err != nil && errors.As(err, &netError) { t.forceClose(quicConn, err) } } func (t *clientImpl) forceClose(quicConn quic.Connection, err error) { t.connMutex.Lock() defer t.connMutex.Unlock() if quicConn == nil { quicConn = t.quicConn } if quicConn != nil { if quicConn == t.quicConn { t.quicConn = nil } } errStr := "" if err != nil { errStr = err.Error() } if quicConn != nil { _ = quicConn.CloseWithError(ProtocolError, errStr) } udpInputMap := &t.udpInputMap udpInputMap.Range(func(key uint16, value net.Conn) bool { conn := value _ = conn.Close() udpInputMap.Delete(key) return true }) } func (t *clientImpl) Close() { t.closed.Store(true) if t.openStreams.Load() == 0 { t.forceClose(nil, common.ClientClosed) } } func (t *clientImpl) DialContextWithDialer(ctx context.Context, metadata *C.Metadata, dialer C.Dialer, dialFn common.DialFunc) (net.Conn, error) { quicConn, err := t.getQuicConn(ctx, dialer, dialFn) if err != nil { return nil, err } openStreams := t.openStreams.Add(1) if openStreams >= t.MaxOpenStreams { t.openStreams.Add(-1) return nil, common.TooManyOpenStreams } stream, err := func() (stream net.Conn, err error) { defer func() { t.deferQuicConn(quicConn, err) }() buf := pool.GetBuffer() defer pool.PutBuffer(buf) err = NewConnect(NewAddress(metadata)).WriteTo(buf) if err != nil { return nil, err } quicStream, err := quicConn.OpenStream() if err != nil { return nil, err } stream = common.NewQuicStreamConn( quicStream, quicConn.LocalAddr(), quicConn.RemoteAddr(), func() { time.AfterFunc(C.DefaultTCPTimeout, func() { openStreams := t.openStreams.Add(-1) if openStreams == 0 && t.closed.Load() { t.forceClose(quicConn, common.ClientClosed) } }) }, ) _, err = buf.WriteTo(stream) if err != nil { _ = stream.Close() return nil, err } return stream, err }() if err != nil { return nil, err } return stream, nil } func (t *clientImpl) ListenPacketWithDialer(ctx context.Context, metadata *C.Metadata, dialer C.Dialer, dialFn common.DialFunc) (net.PacketConn, error) { quicConn, err := t.getQuicConn(ctx, dialer, dialFn) if err != nil { return nil, err } openStreams := t.openStreams.Add(1) if openStreams >= t.MaxOpenStreams { t.openStreams.Add(-1) return nil, common.TooManyOpenStreams } pipe1, pipe2 := net.Pipe() var connId uint16 for { connId = uint16(fastrand.Intn(0xFFFF)) _, loaded := t.udpInputMap.LoadOrStore(connId, pipe1) if !loaded { break } } pc := &quicStreamPacketConn{ connId: connId, quicConn: quicConn, inputConn: N.NewBufferedConn(pipe2), udpRelayMode: t.UdpRelayMode, maxUdpRelayPacketSize: t.MaxUdpRelayPacketSize, deferQuicConnFn: t.deferQuicConn, closeDeferFn: func() { t.udpInputMap.Delete(connId) time.AfterFunc(C.DefaultUDPTimeout, func() { openStreams := t.openStreams.Add(-1) if openStreams == 0 && t.closed.Load() { t.forceClose(quicConn, common.ClientClosed) } }) }, } return pc, nil } type Client struct { *clientImpl // use an independent pointer to let Finalizer can work no matter somewhere handle an influence in clientImpl inner } func (t *Client) DialContextWithDialer(ctx context.Context, metadata *C.Metadata, dialer C.Dialer, dialFn common.DialFunc) (net.Conn, error) { conn, err := t.clientImpl.DialContextWithDialer(ctx, metadata, dialer, dialFn) if err != nil { return nil, err } return N.NewRefConn(conn, t), err } func (t *Client) ListenPacketWithDialer(ctx context.Context, metadata *C.Metadata, dialer C.Dialer, dialFn common.DialFunc) (net.PacketConn, error) { pc, err := t.clientImpl.ListenPacketWithDialer(ctx, metadata, dialer, dialFn) if err != nil { return nil, err } return N.NewRefPacketConn(pc, t), nil } func (t *Client) forceClose() { t.clientImpl.forceClose(nil, common.ClientClosed) } func NewClient(clientOption *ClientOption, udp bool, dialerRef C.Dialer) *Client { ci := &clientImpl{ ClientOption: clientOption, udp: udp, dialerRef: dialerRef, udpInputMap: *xsync.NewMapOf[uint16, net.Conn](), } c := &Client{ci} runtime.SetFinalizer(c, closeClient) log.Debugln("New TuicV5 Client at %p", c) return c } func closeClient(client *Client) { log.Debugln("Close TuicV5 Client at %p", client) client.forceClose() }